WIRING STRUCTURE AND JOINT BOX INCLUDING THE SAME
A wiring structure includes a board assembly and pin terminals. In each of pin terminal insertion holes formed in the board assembly, a terminal connection portion electrically connected to a metal foil wire and fitted onto the pin terminal so as to hold the pin terminal is provided in a through-hole of at least one of a plurality of circuit boards forming the board assembly, which forms a part of the pin terminal insertion hole, whereas an insulating sleeve blocking contact between the pin terminal and each of the remaining circuit boards is fitted into through-holes of the remaining circuit boards, which form the remaining part of the pin terminal insertion hole.
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This application claims priority to Japanese Patent Application No. 2010-218632 filed on Sep. 29, 2010, the disclosure of which including the specification, the drawings, and the claims is hereby incorporated by reference in its entirety.
BACKGROUNDThe present disclosure relates to a wiring structure and a joint box including the wiring structure.
Recently, a plurality of electronic parts have been used for an electrical product or an automobile (vehicle), and many wires are connected to the electronic parts. Thus, a joint box has been proposed, which unifies a wire connection and unifies a power supply.
For example, Japanese Patent Publication No. 2009-164632 discloses a joint box using circuit boards, which is configured as follows. A plurality of circuit boards are stacked, each of which is provided with a metal foil wire on a three-dimensionally molded resin plate made of synthetic resin, and pin terminal insertion holes are formed in the stacked circuit boards. A receiving terminal made of metal is attached to a through-hole defining the pin terminal insertion hole of a certain circuit board. A tab provided with the receiving terminal is connected to the metal foil wire of the circuit board. Then, a pin terminal is inserted into the pin terminal insertion hole, and is electrically connected to the metal foil wire of the circuit board through the receiving terminal. The joint box is connected to an electronic circuit unit provided therein or adjacent thereto through the protruding pin terminal.
SUMMARYA wiring structure of the present disclosure includes a board assembly in which a plurality of circuit boards each including a metal foil wire on an insulating board are stacked, and a pin terminal insertion hole is formed by overlapping through-holes formed in the plurality of circuit boards with each other in a board thickness direction; and a pin terminal inserted into the pin terminal insertion hole of the board assembly. In the pin terminal insertion hole, a terminal connection portion electrically connected to the metal foil wire of the circuit board and fitted onto the pin terminal inserted into the pin terminal insertion hole so as to hold the pin terminal is provided in the through-hole of at least one of the plurality of circuit boards, which forms a part of the pin terminal insertion hole, and at least one insulating sleeve blocking contact of the pin terminal inserted into the pin terminal insertion hole with the remaining circuit boards is fitted into the through-holes of the remaining circuit boards, which form the remaining part of the pin terminal insertion hole.
A joint box of the present disclosure includes a wiring structure and a housing in which the wiring structure is accommodated so that the pin terminal protrudes from the housing. A connector attachment portion including the pin terminal protruding from the housing is provided on an outer surface of the housing.
Features and advantages of the present disclosure will be apparent from the following description and the accompanying drawings.
An embodiment will be described in detail below.
The joint box A of the present embodiment is installed in an electrical product or an automobile (vehicle), and is connected to a connector provided in each of many wires extending from electronic parts, power sources, etc. The joint box A is configured to unify a wire connection and unify a power supply.
In the joint box A of the present embodiment, a wiring structure 10 which is a thick plate-shaped member is accommodated in a housing 20.
In the wiring structure 10, a plurality of pin terminals 12 are provided in a board assembly 11. In the board assembly 11, a plurality of circuit boards 13 are stacked.
In each of the plurality of circuit boards 13, a metal foil wire 16 to which receiving terminals 15 are attached at both ends thereof is provided on an insulating board 14. Note that the metal foil wire 16 may be provided only on one side of the insulating board 14 of the circuit board 13, or may be provided on both sides of the insulating board 14. The receiving terminals 15 are not necessarily provided at the both ends of the metal foil wire 16 as illustrated in
The insulating board 14 is made of, e.g., resin material. The resin material forming the insulating board 14 may be thermoplastic resin or thermoset resin. However, if the thermoset resin such as epoxy resin is used, cutting etc. are required when forming recessed and raised portions in the board, thereby complicating a board forming process and wasting material. Thus, the thermoplastic resin is preferably used because the recessed and raised portions can be easily formed in the board by injection molding using a mold devised for forming the recessed and raised portions and no material is wasted. Considering a heat resistance property, polypropylene resin is preferably used as the thermoplastic resin. Considering a shape retaining property, polypropylene resin containing talc of 20% by mass is more preferably used. The thickness of the insulating board 14 is, e.g., 1-5 mm. Terminal insertion through-holes 17a, 17b into each of which the pin terminal is inserted are formed in each of the insulating boards 14 of the circuit boards 13 so that positions of the terminal insertion through-holes 17a, 17b in one of the insulating boards 14 correspond to those in the remaining insulating boards 14. As the terminal insertion through-holes 17a, 17b, there are the terminal insertion through-holes 17a electrically connected together through the receiving terminals 15 and the metal foil wire 16 and the terminal insertion through-holes 17b which are different from the terminal insertion through-holes 17a. The diameter of the terminal insertion through-hole 17a, 17b is, e.g., 1-10 mm. The terminal insertion through-hole 17a, 17b is formed in, e.g., a circular shape, a rectangular shape, a slit-like shape, etc. corresponding to the shape of the pin terminal 12. A plurality of positioning protrusions 14a for positioning the wires are provided on the insulating board 14, and a terminal welding hole 14b is formed near each of the terminal insertion through-holes 17a electrically connected together through the receiving terminals 15 and the metal foil wire 16. As illustrated in, e.g.,
The metal foil wire 16 is made of, e.g., metal foil formed by blanking. The thickness of the metal foil wire 16 is, e.g., 0.01-2.0 mm. A positioning hole 16a is formed corresponding to the positioning protrusion 14a of the insulating board 14 in the metal foil wire 16 by a drill or a punch. As in the terminal insertion through-holes 17b in a lower portion of the board illustrated in
The positioning protrusion 14a is inserted into the positioning hole 16a, and a top portion of the positioning protrusion 14a is flattened out so that the positioning protrusion 14a does not come out from the positioning hole 16a as illustrated in
The receiving terminal 15 is, e.g., a copper plate formed by the blanking. The thickness of the receiving terminal 15 is, e.g., 0.1-3.0 mm. A terminal holding through-hole 15a is formed corresponding to the terminal insertion through-hole 17a of the insulating board 14 in the receiving terminal 15. The receiving terminal 15 includes a board surface side portion 15b provided on a board surface, and a circular terminal holding portion 15c which continues to the board surface side portion 15b and is fitted into the terminal insertion through-hole 17a to form the terminal holding through-hole 15a.
In the board assembly 11, the plurality of circuit boards 13 are stacked. The board assembly 11 includes, e.g., two to ten circuit boards 13, and preferably three to seven circuit boards 13. The thickness of the board assembly 11 is 2-50 mm, and preferably 5-20 mm. It is preferred that, in order to reduce or prevent a short circuit between the metal foil wires 16 of the circuit boards 13 adjacent to each other, the circuit boards 13 of the board assembly 11 are stacked so that a side of one circuit board 13, on which the metal foil wire 16 is provided faces a side of an adjacent circuit board 13, on which the metal foil wire 16 is not provided. However, if an electric connection between the metal foil wires 16 of the circuit boards 13 adjacent to each other is required, or insulation can be ensured by interposing insulating material therebetween, the circuit boards 13 may be stacked so that sides of the circuit boards 13, on which the metal foil wires 16 are provided face each other.
In the board assembly 11, a plurality of pin terminal insertion holes 18 are provided, each of which is formed by overlapping the terminal insertion through-holes 17b or the terminal holding through-holes 15a formed in the plurality of circuit boards 13 in a board thickness direction. In each of the plurality of pin terminal insertion holes 18, the terminal holding portion 15c of the receiving terminal 15 is provided in the terminal holding through-hole 15a of at least one of the plurality of circuit boards 13, which forms a part of the pin terminal insertion hole 18, whereas an insulating sleeve(s) 19 is/are fitted into the terminal insertion through-holes 17b of the other circuit boards 13, which form the remaining part of the pin terminal insertion hole 18. As illustrated in, e.g.,
Various shapes may be employed for the pin terminal 12 depending on an application purpose thereof, and Japanese Patent Publication No. 2009-164632 and Japanese Patent No. 3974924 disclose various types of the pin terminal 12. As illustrated in
Each of the plurality of pin terminals 12 is inserted into the pin terminal insertion hole 18 of the board assembly 11. Some of the pin terminals 12 protrude from one side of the board assembly 11, and the remaining pin terminals 12 protrude from the other side of the board assembly 11. Note that a configuration may be employed, in which all of the terminal portions 12b of the plurality of pin terminals 12 protrude from only one side of the board assembly 11. The pin terminals 12 are not inserted into all of the pin terminal insertion holes 18, and there may be the pin terminal insertion holes 18 into which the pin terminals 12 are not inserted.
In a configuration in which pin terminals are inserted into pin terminal insertion holes of a board assembly as described in Japanese Patent Publication No. 2009-164632, ii a through-hole is provided in a portion where a metal foil wire is provided in a circuit board other than a circuit board in which the pin terminal is electrically connected to a metal foil wire, it is necessary to avoid contact between the metal foil wire and the pin terminal. Thus, e.g., a technique has been employed, in which a hole of the metal foil wire is formed larger than the through-hole, and a rim of the hole of the metal foil wire is apart from a rim of the through-hole. However, a larger hole of the metal foil wire than the through-hole results in a smaller area of the metal foil wire, thereby increasing conductor resistance of the metal foil wire and reducing heat radiation.
On the other hand, according to the configuration of the present disclosure, in the pin terminal insertion hole 18 into which the pin terminal 12 is inserted, the terminal holding through-hole 15a forming a part of the pin terminal insertion hole 18 is formed in at least one of the plurality of circuit boards 13. In the terminal holding through-hole 15a, a terminal connection portion is provided, which is electrically connected to the metal foil wire 16 of the circuit board 13 and is fitted onto the pin terminal 12 inserted into the pin terminal insertion hole 18 so as to hold the pin terminal 12. In addition, the insulating sleeve(s) 19 is/are fitted into the terminal insertion through-holes 17b of the remaining circuit boards 13, which form the remaining part of the pin terminal insertion hole 18, so that contact of the pin terminal 12 inserted into the pin terminal insertion hole 18 with the remaining circuit boards 13 is blocked. Thus, in each of the circuit boards 13 other than the circuit board 13 including the metal foil wire 16 electrically connected to the pin terminal 12, avoidance of contact between the metal foil wire 16 and the pin terminal 12 can be ensured. As a result, in each of the circuit boards 13 other than the circuit board 13 including the metal foil wire 16 electrically connected to the pin terminal 12, the metal foil wire 16 can be provided near an edge of the terminal insertion through-hole 17b as in the terminal insertion through-holes 17b provided on the lower portion of the board illustrated in
The pin terminal 12 is, e.g., a member formed by processing a metal plate. For example, the following configurations may be employed for the pin terminal 12: a configuration in which both side end portions of a band-shaped metal plate (i.e., the pin portion 12a) are inwardly folded two times, and the metal plate has a rectangular cross section as illustrated in
It is preferred that the pin terminal 12 is electrically connected to the metal foil wire 16 of only one of the plurality of circuit boards 13. It is possible to realize a structure in which the pin terminal 12 inserted into the pin terminal insertion hole 18 is electrically connected to the metal foil wires 16 of the plurality of the circuit boards 13. However, in such a structure, the terminal holding portions 15c of a plurality of the receiving terminals 15 are fitted onto the pin terminal 12 inserted into the pin terminal insertion hole 18, thereby holding the pin terminal 12. Thus, a portion of the pin terminal 12 may be plastically deformed after the pin terminal 12 passes through the terminal holding portion 15c of the receiving terminal 15 which first contacts the pin terminal 12. As a result, there is a possibility that reliability of electrical contact between the pin terminal 12 and each of the terminal holding portions 15c of the receiving terminals 15 which subsequently contacts the pin terminal 12 is reduced. For example, in a case where a pin terminal 12 is inserted into a circular pin terminal insertion hole 18, the pin terminal 12 is held in a state in which a four corners thereof contact an inner surface of the pin terminal insertion hole 18 in the terminal holding portion 15c of the receiving terminal 15 which first contacts the pin terminal 12 as illustrated in
As illustrated in
Each of the upper and lower protective members 31, 32 is made of, e.g., resin material. The resin material may be thermoplastic resin such as polypropylene resin and ABS resin, or may be thermoset resin such as epoxy resin. However, if the thermoset resin is used, cutting etc. are required when forming recessed and raised portions, thereby complicating a board forming process and wasting material. Thus, the thermoplastic resin is preferably used because the recessed and raised portions can be easily formed in the board by injection molding using a mold devised for forming the recessed and raised portions and no material is wasted. The thickness of each of the upper and lower protective members 31, 32 is, e.g., 1-5 mm.
The following configuration may be employed for the upper and lower protective members 31, 32. As illustrated in
Ribs are preferably provided in, e.g., a grid pattern on an outer surface of each of the upper and lower protective members 31, 32. According to such a configuration, warpage of the board assembly 11 can be avoided by a reinforcement effect of the ribs. Note that the warpage of the board assembly 11 may degrade workability for positioning the board assembly 11 within the housing 20.
It is preferred that the insulating sleeve 19 is integrally formed with the upper and/or lower protective members 31, 32. As illustrated in, e.g.,
The housing 20 includes an upper housing member 21 provided above the wiring structure 10, and a lower housing member 22 provided below the wiring structure 10. Each of the upper and lower housing members 21, 22 is made of, e.g., resin material. The resin material may be thermoplastic resin such as polypropylene resin and ABS resin, or may be thermoset resin such as epoxy resin. However, if the thermoset resin is used, cutting etc. are required when forming recessed and raised portions, thereby complicating a board forming process and wasting material. Thus, the thermoplastic resin is preferably used because the recessed and raised portions can be easily formed in the board by injection molding using a mold devised for forming the recessed and raised portions and no material is wasted. The thickness of each of the upper and lower housing members 21, 22 is, e.g., 1-5 mm.
As illustrated in
In each of the upper and lower housing members 21, 22, terminal insertion portions are formed corresponding to the pin terminal insertion holes 18 of the wiring structure 10, and the terminal portions 12b of the pin terminals 12 of the wiring structure 10 protrude from the terminal insertions portions in a state in which the pin terminals 12 are inserted into the pin terminal insertion holes 18. In an outer surface of each of the upper and lower housing members 21, 22, a plurality of connector attachment portions 23 are provided, each of which includes walls surrounding one or more pin terminals 12 protruding from the terminal insertion portion(s) and/or one or more terminal insertion portions from which the pin terminal(s) 12 does/do not protrude. A connector provided in each of many wires extending from electronic parts etc. is connected to each of the connector attachment portions 23.
In the outer surface of the upper housing member 21, a board attachment portion 24 is provided with walls surrounding one or more pin terminals 12 protruding from the terminal insertion portion(s) and/or one or more terminal insertion portions from which the pin terminal(s) 12 does/do not protrude. A circuit board 25 on which electrical components 25a are mounted is provided in the board attachment portion 24. The circuit board 25 includes a terminal receiving portion(s) provided corresponding to the pin terminal(s) 12 within the board attachment portion 24, and a pin terminal(s) 12 provided corresponding to the terminal insertion portion(s) from which the pin terminal(s) 12 does/do not protrude. The terminal receiving portion of the circuit board 25 holds the pin terminal 12 protruding from the terminal insertion portion of the upper housing member 21. In addition, the pin terminal 12 of the circuit board 25 is held in a state in which the pin terminal 12 of the circuit board 25 is inserted into the pin terminal insertion hole 18 through the terminal insertion portions of the upper housing member 21 and the upper protective member 31, thereby being directly and electrically connected to the wiring structure 10. In such a manner, the circuit board 25 is attached to the wiring structure 10 through the upper housing member 21. The pin terminal 12 and the terminal receiving portion may be fixed to each other by solder. Note that, e.g., a voltage control circuit board, a ground-fault detection circuit board, etc. may be employed as the circuit board 25. Alternatively, a configuration may be employed, in which the circuit board 25 is provided in the lower housing member 22.
A board cover 26 is provided in the upper housing member 21 so as to cover the board attachment portion 24. The board cover 26 is preferably made of resin material similar to that of the upper housing member 21. A plurality of board engaging protrusions 27 are provided on a side closer to the upper housing member 21 in the board cover 26. As illustrated in
Guide protrusions 28 are provided in the board cover 26, and guide grooves (not shown in the figure) to be engaged with the guide protrusions 28 are provided in the upper housing member 21. According to such a configuration, disadvantages such as the tilted board cover 26 attached to the upper housing member 21 can be solved. Thus, attachment of the board cover 26 to the upper housing member 21 is facilitated, and shape retention of the board cover 26 can be realized by the guide protrusions 28. It is preferred that a vent hole (not shown in the figure) for enhancing the heat radiation, a reinforcement rib (not shown in the figure) for shape retention, which is attached to an inner surface of the board cover 26, and an engagement/fixing portion (not shown in the figure) for the upper housing member 21 are provided in the board cover 26.
A switch attachment portion 29 including one or more pin terminals 12 protruding from the terminal insertion portion(s) of the upper housing member 21 and/or one or mere terminal insertion portions of the upper housing member 21 from which the pin terminal(s) 12 does/do not protrude is provided in the upper housing member 21. A switching component for switching voltage is directly attached to the switch attachment portion 29 or is attached to the switch attachment portion 29 through a relay connector, and therefore the switching component is electrically connected to the circuit board 25.
The description of the embodiment of the present disclosure is given above for the understanding of the present disclosure. It will be understood that the invention is not limited to the particular embodiment described herein, but is capable of various modifications, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, it is intended that the following claims cover all such modifications and changes as fall within the true spirit and scope of the invention.
Claims
1. A wiring structure, comprising:
- a board assembly in which a plurality of circuit boards each including a metal foil wire on an insulating board are stacked, and a pin terminal insertion hole is formed by overlapping through-holes formed in the plurality of circuit boards with each other in a board thickness direction; and
- a pin terminal inserted into the pin terminal insertion hole of the board assembly,
- wherein, in the pin terminal insertion hole, a terminal connection portion electrically connected to the metal foil wire of the circuit board and fitted onto the pin terminal inserted into the pin terminal insertion hole so as to hold the pin terminal is provided in the through-hole of at least one of the plurality of circuit boards, which forms a part of the pin terminal insertion hole, and at least one insulating sleeve blocking contact of the pin terminal inserted into the pin terminal insertion hole with the remaining circuit boards is fitted into the through-holes of the remaining circuit boards, which form the remaining part of the pin terminal insertion hole.
2. The wiring structure of claim 1, wherein
- the plurality of circuit boards are stacked so that a side of one of the circuit boards, on which the metal foil wire is provided and a side of the adjacent circuit board, on which the metal foil wire is not provided face each other.
3. The wiring structure of claim 1, wherein
- the plurality of circuit boards includes a circuit board having metal foil wires on both sides of an insulating board.
4. The wiring structure of claim 1, wherein
- each of the insulating boards of the plurality of circuit boards is made of polypropylene resin.
5. The wiring structure of claim 1, wherein
- an inter-board clearance maintaining raised portion is provided around each of the through-holes of the remaining circuit boards, which form the remaining part of the pin terminal insertion hole.
6. The wiring structure of claim 1, wherein
- the pin terminal is electrically connected to the metal foil wire of only one of the plurality of circuit boards.
7. The wiring structure of claim 1, wherein,
- the board assembly includes a plurality of pin terminal insertion holes, and a plurality of pin terminals is provided.
8. The wiring structure of claim 7, wherein
- the plurality of pin terminals includes a pin terminal penetrating the board assembly and outwardly protruding from the board assembly.
9. The wiring structure of claim 7, wherein
- the plurality of pin terminals includes a pin terminal protruding from one side of the board assembly, and a pin terminal protruding from the other side of the board assembly.
10. The wiring structure of claim 7, wherein
- the plurality of pin terminals are provided so as to protrude only from one side of the board assembly.
11. The wiring structure of claim 1, further comprising:
- upper and lower protective members from which the pin terminal protrudes and which are provided so as to sandwich the board assembly,
- wherein the insulating sleeve is integrally provided in at least one of the upper and lower protective members.
12. The wiring structure of claim 11, wherein
- a rib is provided on an outer surface of each of the upper and lower protective members.
13. A joint box, comprising:
- a board assembly in which a plurality of circuit boards each including a metal foil wire on an insulating board are stacked, and a pin terminal insertion hole is formed by overlapping through-holes formed in the plurality of circuit boards with each other in a board thickness direction;
- a pin terminal inserted into the pin terminal insertion hole of the board assembly;
- a wiring structure in which, in the pin terminal insertion hole, a terminal connection portion electrically connected to the metal foil wire of the circuit board and fitted onto the pin terminal inserted into the pin terminal insertion hole so as to hold the pin terminal is provided in the through-hole of at least one of the plurality of circuit boards, which forms a part of the pin terminal insertion hole, and at least one insulating sleeve blocking contact of the pin terminal inserted into the pin terminal insertion hole with the remaining circuit boards is fitted into the through-holes of the remaining circuit boards, which form the remaining part of the pin terminal insertion hole; and
- a housing in which the wiring structure is accommodated so that the pin terminal protrudes from the housing,
- wherein a connector attachment portion including the pin terminal protruding from the housing is provided on an outer surface of the housing.
14. The joint box of claim 13, wherein
- a board attachment portion including the pin terminal protruding from the housing is provided on the outer surface of the housing, and a circuit board including a terminal receiving portion which holds the pin terminal and is electrically connected to the pin terminal is provided in the board attachment portion.
Type: Application
Filed: Sep 15, 2011
Publication Date: Mar 29, 2012
Patent Grant number: 8366457
Applicants: HONDA MOTOR CO., LTD. (Tokyo), MITSUBISHI CABLE INDUSTRIES, LTD. (Tokyo), MITSUBISHI MATERIALS CORPORATION (Tokyo)
Inventors: Takeyoshi YAMAMOTO (Saitama), Keisuke TAKAHASHI (Saitama), Yoshikatsu HASEGAWA (Saitama)
Application Number: 13/233,160
International Classification: H01R 12/51 (20110101);